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| diversity and inclusion in stem education: Women's Influence on Inclusion, Equity, and Diversity in STEM Fields Thomas, Ursula, Drake, Jill, 2019-05-31 Women are typically not well represented in STEM fields. These same women experience difficulties in advocacy and leadership, as well as hiring and promotion. Women of color, regardless of discipline, face this narrative daily and often throughout their entire careers. Women's Influence on Inclusion, Equity, and Diversity in STEM Fields seeks to critically examine the strategies that women across class and cultural groups use and the struggles they face in order to become successful in professional fields that include business, politics, science, technology, engineering, and mathematics. While highlighting topics that include higher education, workplace perceptions, and information literacy, this publication is ideal for public administrators, human resources professionals, sociologists, academicians, researchers, and students interested in gender studies, public administration, the biological sciences, psychology, computer science, and the STEM fields. |
| diversity and inclusion in stem education: STEM Education for the 21st Century Bryan Edward Penprase, 2020-04-07 This book chronicles the revolution in STEM teaching and learning that has arisen from a convergence of educational research, emerging technologies, and innovative ways of structuring both the physical space and classroom activities in STEM higher education. Beginning with a historical overview of US higher education and an overview of diversity in STEM in the US, the book sets a context in which our present-day innovation in science and technology urgently needs to provide more diversity and inclusion within STEM fields. Research-validated pedagogies using active learning and new types of research-based curriculum is transforming how physics, biology and other fields are taught in leading universities, and the book gives profiles of leading innovators in science education and examples of exciting new research-based courses taking root in US institutions. The book includes interviews with leading scientists and educators, case studies of new courses and new institutions, and descriptions of site visits where new trends in 21st STEM education are being developed. The book also takes the reader into innovative learning environments in engineering where students are empowered by emerging technologies to develop new creative capacity in their STEM education, through new centers for design thinking and liberal arts-based engineering. Equally innovative are new conceptual frameworks for course design and learning, and the book explores the concepts of Scientific Teaching, Backward Course Design, Threshold Concepts and Learning Taxonomies in a systematic way with examples from diverse scientific fields. Finally, the book takes the reader inside the leading centers for online education, including Udacity, Coursera and EdX, interviews the leaders and founders of MOOC technology, and gives a sense of how online education is evolving and what this means for STEM education. This book provides a broad and deep exploration into the historical context of science education and into some of the cutting-edge innovations that are reshaping how leading universities teach science and engineering. The emergence of exponentially advancing technologies such as synthetic biology, artificial intelligence and materials sciences has been described as the Fourth Industrial Revolution, and the book explores how these technologies will shape our future will bring a transformation of STEM curriculum that can help students solve many the most urgent problems facing our world and society. |
| diversity and inclusion in stem education: Diverse Educators Bennie Kara, Hannah Wilson, 2022-04-11 Structured around the Equality Act and written collaboratively, Diverse Educators: A Manifesto aims to capture the collective voice of the teaching community and to showcase the diverse lived experiences of educators. |
| diversity and inclusion in stem education: Black, Brown, Bruised Ebony Omotola McGee, 2021-02-01 2022 PROSE Award Finalist Drawing on narratives from hundreds of Black, Latinx, and Indigenous individuals, Ebony Omotola McGee examines the experiences of underrepresented racially minoritized students and faculty members who have succeeded in STEM. Based on this extensive research, McGee advocates for structural and institutional changes to address racial discrimination, stereotyping, and hostile environments in an effort to make the field more inclusive. Black, Brown, Bruised reveals the challenges that underrepresented racially minoritized students confront in order to succeed in these exclusive, usually all-White, academic and professional realms. The book provides searing accounts of racism inscribed on campus, in the lab, and on the job, and portrays learning and work environments as arenas rife with racial stereotyping, conscious and unconscious bias, and micro-aggressions. As a result, many students experience the effects of a racial battle fatigue—physical and mental exhaustion borne of their hostile learning and work environments—leading them to abandon STEM fields entirely. McGee offers policies and practices that must be implemented to ensure that STEM education and employment become more inclusive including internships, mentoring opportunities, and curricular offerings. Such structural changes are imperative if we are to reverse the negative effects of racialized STEM and unlock the potential of all students to drive technological innovation and power the economy. |
| diversity and inclusion in stem education: Expanding Underrepresented Minority Participation Institute of Medicine, National Academy of Engineering, National Academy of Sciences, Policy and Global Affairs, Committee on Science, Engineering, and Public Policy, Committee on Underrepresented Groups and the Expansion of the Science and Engineering Workforce Pipeline, 2011-07-29 In order for the United States to maintain the global leadership and competitiveness in science and technology that are critical to achieving national goals, we must invest in research, encourage innovation, and grow a strong and talented science and technology workforce. Expanding Underrepresented Minority Participation explores the role of diversity in the science, technology, engineering and mathematics (STEM) workforce and its value in keeping America innovative and competitive. According to the book, the U.S. labor market is projected to grow faster in science and engineering than in any other sector in the coming years, making minority participation in STEM education at all levels a national priority. Expanding Underrepresented Minority Participation analyzes the rate of change and the challenges the nation currently faces in developing a strong and diverse workforce. Although minorities are the fastest growing segment of the population, they are underrepresented in the fields of science and engineering. Historically, there has been a strong connection between increasing educational attainment in the United States and the growth in and global leadership of the economy. Expanding Underrepresented Minority Participation suggests that the federal government, industry, and post-secondary institutions work collaboratively with K-12 schools and school systems to increase minority access to and demand for post-secondary STEM education and technical training. The book also identifies best practices and offers a comprehensive road map for increasing involvement of underrepresented minorities and improving the quality of their education. It offers recommendations that focus on academic and social support, institutional roles, teacher preparation, affordability and program development. |
| diversity and inclusion in stem education: Equity and Inclusion in Higher Education Rita Kumar, Brenda Refaei, 2021-06-30 Faculty across disciplines want to provide equitable and inclusive classrooms to support all students, but they are overwhelmed by the content they must cover and have no time to address equity and inclusion in their teaching. Equity and inclusion need not be seen as extra work but as important objectives that guide curriculum development. This book provides strategies to create a more purposeful, intentional curriculum that addresses equity and inclusion across disciplines without compromising content. We bring together practical lesson plans and instructional options that faculty can use and adapt to deliver content in a way that is mindful of inclusion and equity. |
| diversity and inclusion in stem education: Diversifying STEM Ebony O. McGee, William H. Robinson, 2019-11 2020 Choice Outstanding Academic Title Research frequently neglects the important ways that race and gender intersect within the complex structural dynamics of STEM. Diversifying STEM fills this void, bringing together a wide array of perspectives and the voices of a number of multidisciplinary scholars. The essays cover three main areas: the widely-held ideology that science and mathematics are “value-free,” which promotes pedagogies of colorblindness in the classroom as well as an avoidance of discussions around using mathematics and science to promote social justice; how male and female students of color experience the intersection of racist and sexist structures that lead to general underrepresentation and marginalization; and recognizing that although there are no quick fixes, there exists evidence-based research suggesting concrete ways of doing a better job of including individuals of color in STEM. As a whole this volume will allow practitioners, teachers, students, faculty, and professionals to reimagine STEM across a variety of educational paradigms, perspectives, and disciplines, which is critical in finding solutions that broaden the participation of historically underrepresented groups within the STEM disciplines. |
| diversity and inclusion in stem education: Women of Color In STEM Beverly Irby, Nahed Abdelrahman, Barbara Polnick, Julia Ballenger, 2021-03-01 Though there has been a rapid increase of women’s representation in law and business, their representation in STEM fields has not been matched. Researchers have revealed that there are several environmental and social barriers including stereotypes, gender bias, and the climate of science and engineering departments in colleges and universities that continue to block women’s progress in STEM. In this book, the authors address the issues that encounter women of color in STEM in higher education. |
| diversity and inclusion in stem education: The Principles and Practice of Educational Management Tony Bush, Les Bell, 2002-08-09 The Principles and Practice of Educational Management contains newly commissioned material from leading national and international authors who provide a review of relevant theory and explain relevant research in the field. |
| diversity and inclusion in stem education: Minority Serving Institutions National Academies of Sciences, Engineering, and Medicine, Policy and Global Affairs, Board on Higher Education and Workforce, Committee on Closing the Equity Gap: Securing Our STEM Education and Workforce Readiness Infrastructure in the Nation's Minority Serving Institutions, 2019-02-05 There are over 20 million young people of color in the United States whose representation in STEM education pathways and in the STEM workforce is still far below their numbers in the general population. Their participation could help re-establish the United States' preeminence in STEM innovation and productivity, while also increasing the number of well-educated STEM workers. There are nearly 700 minority-serving institutions (MSIs) that provide pathways to STEM educational success and workforce readiness for millions of students of colorâ€and do so in a mission-driven and intentional manner. They vary substantially in their origins, missions, student demographics, and levels of institutional selectivity. But in general, their service to the nation provides a gateway to higher education and the workforce, particularly for underrepresented students of color and those from low-income and first-generation to college backgrounds. The challenge for the nation is how to capitalize on the unique strengths and attributes of these institutions and to equip them with the resources, exceptional faculty talent, and vital infrastructure needed to educate and train an increasingly critical portion of current and future generations of scientists, engineers, and health professionals. Minority Serving Institutions examines the nation's MSIs and identifies promising programs and effective strategies that have the highest potential return on investment for the nation by increasing the quantity and quality MSI STEM graduates. This study also provides critical information and perspective about the importance of MSIs to other stakeholders in the nation's system of higher education and the organizations that support them. |
| diversity and inclusion in stem education: Cracking the code UNESCO, 2017-09-04 This report aims to 'crack the code' by deciphering the factors that hinder and facilitate girls' and women's participation, achievement and continuation in science, technology, engineering and mathematics (STEM) education and, in particular, what the education sector can do to promote girls' and women's interest in and engagement with STEM education and ultimately STEM careers. |
| diversity and inclusion in stem education: New Developments in Pathways Towards Diversity and Inclusion in STEM: A United States Perspective Alexander Gates, Juan Gilbert, Chris Botanga, Kim Nguyen, Bonita London, 2022-10-17 The Louis Stokes Alliances for Minority Participation (LSAMP) program of the US National Science Foundation has been a primary force for raising the success and graduation of minority students in STEM for 30 years. Increasing the number of underrepresented students earning baccalaureate degrees, and entering graduate school in STEM is the goal of LSAMP. This goal has been nearly achieved through the formation of alliances of degree granting institutions of higher learning, varying from community colleges to major research institutions. Currently there are 59 alliances including more than 400 institutions. LSAMP is responsible for more than 650,000 bachelor’s degrees earned by minority students in STEM. The papers for this Research Topic should focus on the use of LSAMP activities, programs and collaborations to develop pathways to success and graduation of STEM majors from minority groups that underrepresented in STEM. These pathways can include any segment from pre-college through graduate school. Areas of special interest include mentoring, research experiences, transitions between levels and novel approaches for retention. The studies should be research based and rigorous. They can be pure research studies, curriculum and design or literature reviews but they must be at a cutting edge level and be subject to detailed review and assessment. |
| diversity and inclusion in stem education: Teacher Education to Enhance Diversity in STEM A. Anthony Ash II, Greg A. Wiggan, Marcia J. Watson-Vandiver, 2020-12-29 Addressing underlying issues in science education and teacher training, which contribute to continued underrepresentation of racial and ethnic minority students in STEM and STEAM subjects and careers, this timely volume illustrates how a critical postmodern science pedagogy (CPSP) can be used effectively to raise awareness of diversity issues amongst preservice teachers. Using a case study design consisting of class observations, interviews, content analysis, questionnaires, and instructional interventions in preservice teacher training, the volume bridges science and multicultural education and investigates how curricular development and teacher preparation can be used to ensure that science education itself promotes diversity within STEM, and throughout education. Chapters also examine the intersections of science education and science literacy for both students and teachers and, in doing so, promote the importance of positive and accurate representation of diversity within science and research discourse. The book attempts to raise awareness regarding the need for meaningful curricular reform that creates real opportunities to address historical and scientific misinformation, while increasing diversity and inclusion in schools and society. This important text will be of interest to postgraduate students, researchers, scholars, and preservice teachers in the fields of science and mathematics education, STEM, multicultural education, teacher education, urban education, and the sociology of education. |
| diversity and inclusion in stem education: Handbook of Research on Classroom Diversity and Inclusive Education Practice Curran, Christina M., Petersen, Amy J., 2017-05-30 As classrooms are becoming more diverse, teachers are now faced with the responsibility of creating an inclusive classroom community. As such, researching classroom pedagogies and practices is an imperative step in curriculum planning. The Handbook of Research on Classroom Diversity and Inclusive Education Practice is an authoritative reference source for the latest scholarly research on ways to effectively teach all students and further refine and strengthen school-wide inclusive pedagogy, methods, and policies. Featuring extensive coverage on a number of topics such as special education, online learning, and English language learners, this publication is ideally designed for professionals, educators, and policy makers seeking current research on methods that ensure all students have equal access to curricular content and the chance for growth and success. |
| diversity and inclusion in stem education: Barriers and Opportunities for 2-Year and 4-Year STEM Degrees National Academies of Sciences, Engineering, and Medicine, National Academy of Engineering, Policy and Global Affairs, Board on Higher Education and Workforce, Division of Behavioral and Social Sciences and Education, Board on Science Education, Committee on Barriers and Opportunities in Completing 2-Year and 4-Year STEM Degrees, 2016-05-18 Nearly 40 percent of the students entering 2- and 4-year postsecondary institutions indicated their intention to major in science, technology, engineering, and mathematics (STEM) in 2012. But the barriers to students realizing their ambitions are reflected in the fact that about half of those with the intention to earn a STEM bachelor's degree and more than two-thirds intending to earn a STEM associate's degree fail to earn these degrees 4 to 6 years after their initial enrollment. Many of those who do obtain a degree take longer than the advertised length of the programs, thus raising the cost of their education. Are the STEM educational pathways any less efficient than for other fields of study? How might the losses be stemmed and greater efficiencies realized? These questions and others are at the heart of this study. Barriers and Opportunities for 2-Year and 4-Year STEM Degrees reviews research on the roles that people, processes, and institutions play in 2-and 4-year STEM degree production. This study pays special attention to the factors that influence students' decisions to enter, stay in, or leave STEM majorsâ€quality of instruction, grading policies, course sequences, undergraduate learning environments, student supports, co-curricular activities, students' general academic preparedness and competence in science, family background, and governmental and institutional policies that affect STEM educational pathways. Because many students do not take the traditional 4-year path to a STEM undergraduate degree, Barriers and Opportunities describes several other common pathways and also reviews what happens to those who do not complete the journey to a degree. This book describes the major changes in student demographics; how students, view, value, and utilize programs of higher education; and how institutions can adapt to support successful student outcomes. In doing so, Barriers and Opportunities questions whether definitions and characteristics of what constitutes success in STEM should change. As this book explores these issues, it identifies where further research is needed to build a system that works for all students who aspire to STEM degrees. The conclusions of this report lay out the steps that faculty, STEM departments, colleges and universities, professional societies, and others can take to improve STEM education for all students interested in a STEM degree. |
| diversity and inclusion in stem education: Gender Equity in STEM in Higher Education Hyun Kyoung Ro, Frank Fernandez, Elizabeth Ramon, 2021 This timely volume brings together a range of international scholars to analyse cultural, political, and individual factors which contribute to the continued global issue of female underrepresentation in STEM study and careers. Offering a comparative approach to examining gender equity in STEM fields across countries including the UK, Germany, the US, Hong Kong, Taiwan, South Africa, and China, the volume provides a thematic breakdown of institutional trends and national policies that have successfully improved gender equity in STEM at institutions of higher education. Offering case studies that demonstrate how policies interact with changing social and cultural norms, and impact women's choices and experiences in relation to the uptake and continuation of STEM study at the undergraduate level, the volume highlights new directions for research and policy to promote gender equity in STEM at school, university, and career level. Contributing to the United Nations' (UN) 2030 Agenda for Sustainable Development, this text will benefit researchers, academics, and educators with an interest in science education, higher education, and gender equity in STEM fields. The text will also support further discussion and reflection around multicultural education, educational policy and politics, and the sociology of education more broadly. Hyun Kyoung Ro is Associate Professor of Higher Education at the University of North Texas, USA. Frank Fernandez is Assistant Professor of Higher Education at the University of Mississippi, USA. Elizabeth Ramon is a PhD student in Higher Education at the University of North Texas, USA-- |
| diversity and inclusion in stem education: Diversity and Equity in Science Education Okhee Lee, Cory A. Buxton, 2010-04-30 Two leading science educators provide a comprehensive, state-of-the-field analysis of current trends in the research, policy, and practice of science education. This book offers valuable insights into why gaps in science achievement among racial, ethnic, cultural, linguistic, and socioeconomic groups persist, and points toward practical means of narrowing or eliminating these gaps. Lee and Buxton examine instructional practices, science–curriculum materials (including computer technology), assessment, teacher education, school organization, federal and state policies, and home-school connections. Book features: A synthesis of the emerging body of research in the field of science education and its application to practice and policy. A description of effective practices for narrowing science achievement gaps among demographic subgroups of students. A focus on the unique learning needs of English language learners. An analysis of major science education initiatives, interventions, and programs that have been successful with nonmainstream students. |
| diversity and inclusion in stem education: Towards Inclusion of All Learners Through Science Teacher Education Michele Koomen, Sami Kahn, Christopher L. Atchison, Tiffany A. Wild, 2018 Towards Inclusion of All Learners through Science Teacher Education serves as a resource for teachers and teacher educators wishing to understand how to educate students with exceptionalities in science by connecting their experiences to leading experts |
| diversity and inclusion in stem education: Leadership in Integrative STEM Education Rachel Louise Geesa, Mary Annette Rose, Krista Marie Stith, 2021-11-30 In the face of complex local and global problems, there is a critical need to prepare PK-12 students to be innovative, resilient problem-solvers and well-equipped STEM-literate citizens. With focus upon integrated content, college and career readiness, authentic problems, and action-oriented pedagogies, integrative STEM education provides a promising approach to address this challenge. Integrative STEM programming with its fusion of science, mathematics, engineering, and technology content and practices may manifest in a variety of ways: Teachers co-plan an engineering design experience within a social studies class. A community business partner offers a job-shadowing experience. Students engage in an after-school program at a makerspace. Educators collaboratively re-envision and interweave STEM across the curriculum. And more... Current and future educational leaders striving to improve STEM programming will find this book to be a useful resource. Its introduction offers an orientation to the fundamental goals, principles, and practices of integrative STEM education. While later chapters delve into the facets of STEM programming and the competencies of STEM leadership which form the foundation of a coherent program. These evidence-based strategies, examples, and resources may provide inspiration to leaders as they initiate and enhance an equitable integrative STEM culture within their school. |
| diversity and inclusion in stem education: Culturally Responsive Strategies for Reforming STEM Higher Education Kelly M. Mack, Kate Winter, Melissa Soto, 2019-01-14 This book chronicles the introspective and contemplative strategies employed within a uniquely-designed professional development intervention that successfully increased the self-efficacy of STEM faculty in implementing culturally relevant pedagogies in the computer/information sciences. |
| diversity and inclusion in stem education: Changing the Face of Engineering John Brooks Slaughter, Yu Tao, Willie Pearson Jr., 2015-12-15 How can academic institutions, corporations, and policymakers foster African American participation and advancement in engineering? For much of America’s history, African Americans were discouraged or aggressively prevented from becoming scientists and engineers. Those who did enter STEM fields found that their inventions and discoveries were often neither recognized nor valued. Even today, particularly in the field of engineering, the participation of African American men and women is shockingly low, and some evidence indicates that the situation might be getting worse. In Changing the Face of Engineering, twenty-four eminent scholars address the underrepresentation of African Americans in engineering from a wide variety of disciplinary and professional perspectives while proposing workable classroom solutions and public policy initiatives. They combine robust statistical analyses with personal narratives of African American engineers and STEM instructors who, by taking evidenced-based approaches, have found success in graduating African American engineers. Changing the Face of Engineering argues that the continued underrepresentation of African Americans in engineering impairs the ability of the United States to compete successfully in the global marketplace. This volume will be of interest to STEM scholars and students, as well as policymakers, corporations, and higher education institutions. |
| diversity and inclusion in stem education: Graduate STEM Education for the 21st Century National Academies of Sciences, Engineering, and Medicine, Policy and Global Affairs, Board on Higher Education and Workforce, Committee on Revitalizing Graduate STEM Education for the 21st Century, 2018-09-21 The U.S. system of graduate education in science, technology, engineering, and mathematics (STEM) has served the nation and its science and engineering enterprise extremely well. Over the course of their education, graduate students become involved in advancing the frontiers of discovery, as well as in making significant contributions to the growth of the U.S. economy, its national security, and the health and well-being of its people. However, continuous, dramatic innovations in research methods and technologies, changes in the nature and availability of work, shifts in demographics, and expansions in the scope of occupations needing STEM expertise raise questions about how well the current STEM graduate education system is meeting the full array of 21st century needs. Indeed, recent surveys of employers and graduates and studies of graduate education suggest that many graduate programs do not adequately prepare students to translate their knowledge into impact in multiple careers. Graduate STEM Education for the 21st Century examines the current state of U.S. graduate STEM education. This report explores how the system might best respond to ongoing developments in the conduct of research on evidence-based teaching practices and in the needs and interests of its students and the broader society it seeks to serve. This will be an essential resource for the primary stakeholders in the U.S. STEM enterprise, including federal and state policymakers, public and private funders, institutions of higher education, their administrators and faculty, leaders in business and industry, and the students the system is intended to educate. |
| diversity and inclusion in stem education: STEM Education 2.0 Alpaslan Sahin, Margaret J. Mohr-Schroeder, 2019-08-12 STEM Education 2.0 discusses the most recent research on important selected K-12 STEM topics by synthesizing previous research and offering new research questions. The contributions range from analysis of key STEM issues that have been studied for more than two decades to topics that have more recently became popular, such as maker space and robotics. In each chapter, nationally and internationally known STEM experts review key literature in the field, share findings of their own research with its implications for K-12 STEM education, and finally offer future research areas and questions in the respected area they have been studying. This volume provides diverse and leading voices in the future of STEM education and STEM education research. |
| diversity and inclusion in stem education: Inclusive and Adaptive Teaching Peter S. Westwood, 2013 What does it actually mean to teach an inclusive mixed-ability class? From the author of the classic teacher text Commonsense Methods for Children with Special Needs this new book from Peter Westwood fully acknowledges what is feasible and useful to teachers in today’s inclusive classroom. This insightful teaching resource promotes a fully inclusive approach to teaching the common curriculum to all, while acknowledging differences among learners in relation to intelligence, gender, socioeconomic background, cultural background, language skills and disabilities. Drawing on the underlying principles of inclusive education, and on curriculum and learning theories, Westwood discusses in detail the challenge of diversity in the classroom. The author presents in practical terms an adaptive approach to teaching that can respond, when necessary, to differences among students. Accessible chapters in this book present: sound pedagogical practice linked with adapting curriculum content; helpful teaching methods; a range of resource materials; useful assessment procedures; support for learning. The writer draws appropriately on international research and current learning theories to support this approach, whilst each chapter contains an up-to-date list of online and print resources easily available to teachers who wish to pursue topics in greater depth. This book will be of interest to both practising and trainee teachers and teaching assistants, as well as school principals, school counsellors and educational psychologists. |
| diversity and inclusion in stem education: Indicators for Monitoring Undergraduate STEM Education National Academies of Sciences, Engineering, and Medicine, Division of Behavioral and Social Sciences and Education, Board on Science Education, Committee on Developing Indicators for Undergraduate STEM Education, 2018-03-08 Science, technology, engineering and mathematics (STEM) professionals generate a stream of scientific discoveries and technological innovations that fuel job creation and national economic growth. Ensuring a robust supply of these professionals is critical for sustaining growth and creating jobs growth at a time of intense global competition. Undergraduate STEM education prepares the STEM professionals of today and those of tomorrow, while also helping all students develop knowledge and skills they can draw on in a variety of occupations and as individual citizens. However, many capable students intending to major in STEM later switch to another field or drop out of higher education altogether, partly because of documented weaknesses in STEM teaching, learning and student supports. Improving undergraduate STEM education to address these weaknesses is a national imperative. Many initiatives are now underway to improve the quality of undergraduate STEM teaching and learning. Some focus on the national level, others involve multi-institution collaborations, and others take place on individual campuses. At present, however, policymakers and the public do not know whether these various initiatives are accomplishing their goals and leading to nationwide improvement in undergraduate STEM education. Indicators for Monitoring Undergraduate STEM Education outlines a framework and a set of indicators that document the status and quality of undergraduate STEM education at the national level over multiple years. It also indicates areas where additional research is needed in order to develop appropriate measures. This publication will be valuable to government agencies that make investments in higher education, institutions of higher education, private funders of higher education programs, and industry stakeholders. It will also be of interest to researchers who study higher education. |
| diversity and inclusion in stem education: STEM Education , 2024-05-29 This book examines Science, Technology, Engineering, and Mathematics (STEM) education in different countries with a focus on recent developments and emerging trends. STEM education has become a gateway for socio-economic and technological development of nation-states. In light of this, many countries have prioritized STEM education and made it an integral part of their education at all levels. Moreover, many approaches have been used to develop STEM education and teach students to compete with the fast-developing world. However, despite its infinite benefits, it is also important to note that there is inequality in the access and delivery of STEM education within and across countries, which requires new approaches to improve STEM education and its teaching and learning. Therefore, this book consists of chapters on the development, teaching, and access of STEM education from different education levels, countries, and perspectives. The chapters discuss the concept of STEM education in general or on a particular level of education (. g., PreK–12 education, vocational education, and higher education), or subjects such as mathematics, computer science, and architecture. Moreover, the book includes chapters based on the nexus of STEM education and other subjects, including arts and culture, to teaching STEM education. The book contributes to understanding and improving STEM education and instruction globally. |
| diversity and inclusion in stem education: Handbook of Research on STEM Education Carla C. Johnson, Margaret J. Mohr-Schroeder, Tamara J. Moore, Lyn D. English, 2020-04-27 The Handbook of Research on STEM Education represents a groundbreaking and comprehensive synthesis of research and presentation of policy within the realm of science, technology, engineering, and mathematics (STEM) education. What distinguishes this Handbook from others is the nature of integration of the disciplines that is the founding premise for the work – all chapters in this book speak directly to the integration of STEM, rather than discussion of research within the individual content areas. The Handbook of Research on STEM Education explores the most pressing areas of STEM within an international context. Divided into six sections, the authors cover topics including: the nature of STEM, STEM learning, STEM pedagogy, curriculum and assessment, critical issues in STEM, STEM teacher education, and STEM policy and reform. The Handbook utilizes the lens of equity and access by focusing on STEM literacy, early childhood STEM, learners with disabilities, informal STEM, socio-scientific issues, race-related factors, gender equity, cultural-relevancy, and parental involvement. Additionally, discussion of STEM education policy in a variety of countries is included, as well as a focus on engaging business/industry and teachers in advocacy for STEM education. The Handbook’s 37 chapters provide a deep and meaningful landscape of the implementation of STEM over the past two decades. As such, the findings that are presented within provide the reader with clear directions for future research into effective practice and supports for integrated STEM, which are grounded in the literature to date. |
| diversity and inclusion in stem education: Rev Up Robotics Jorge Valenzuela, 2022-08-18 Author Jorge Valenzuela lays out the foundational skills of computational thinking required for programming with robotics. Unlike other robotics books and curriculum, Rev Up Robotics takes a cross-curricular approach, showing educators how to begin incorporating robotics into their content area lessons and in conjunction with other subjects. You’ll get an overview of standards-based skills that can be covered in English language arts, math, science, social studies and robotics electives. Teachers also get tips for selecting the robot that works for them and for students, and details on the functions of gears, motors and sensors. Also included is a deep dive into more advanced topics like the intersections of computer science, mechanical engineering and electrical engineering with robotics. Finally, you’ll find advice for getting students involved with competitive robotics, and case studies that offer empirical evidence for using robotics successfully in instruction. The book: • Shows how to help students recognize and apply the four elements of computational thinking to familiar situations. • Provides a pathway from working with visual blocks to programming in C++. • Discusses building and programming robots, with tips for adding your own code and troubleshooting. • Demonstrates how to manipulate basic movement to better understand the functions of gears, motors and sensors. With activities and examples for grade levels K-8, teachers come away with easy-to-implement cross-curricular ideas to engage students in computer science and engineering activities. |
| diversity and inclusion in stem education: STEM Integration in K-12 Education National Research Council, National Academy of Engineering, Committee on Integrated STEM Education, 2014-02-28 STEM Integration in K-12 Education examines current efforts to connect the STEM disciplines in K-12 education. This report identifies and characterizes existing approaches to integrated STEM education, both in formal and after- and out-of-school settings. The report reviews the evidence for the impact of integrated approaches on various student outcomes, and it proposes a set of priority research questions to advance the understanding of integrated STEM education. STEM Integration in K-12 Education proposes a framework to provide a common perspective and vocabulary for researchers, practitioners, and others to identify, discuss, and investigate specific integrated STEM initiatives within the K-12 education system of the United States. STEM Integration in K-12 Education makes recommendations for designers of integrated STEM experiences, assessment developers, and researchers to design and document effective integrated STEM education. This report will help to further their work and improve the chances that some forms of integrated STEM education will make a positive difference in student learning and interest and other valued outcomes. |
| diversity and inclusion in stem education: STEM Education Information Resources Management Association, 2014-12-31 This reference brings together an impressive array of research on the development of Science, Technology, Engineering, and Mathematics curricula at all educational levels--Provided by publisher. |
| diversity and inclusion in stem education: Exploring Intersectionality and Women in STEM Balderas, Luz Idalia, Tiwari, Sanju, Verdugo, Elizabeth, Maestre-Gongora, Gina Paola, Ortiz-Rodriguez, Fernando, 2024-03-18 A persistent challenge infects the vast setting of academic pursuits; the enduring gender gap in science, technology, engineering, and mathematics (STEM). Despite incremental progress, women continue to face formidable obstacles, ranging from entrenched stereotypes to institutional oversights. The urgency of addressing this issue cannot be overstated, as evidenced by UNESCO's revelation that less than 30% of the world's researchers and scientists are women. Exploring Intersectionality and Women in STEM seizes this pivotal moment, unraveling the complexities of the gender gap in STEM and daring to propose transformative solutions. This book is not just an analysis of disparities; it is a dynamic and initiative-taking guide for researchers, STEM students, and practitioners. By immersing oneself in its pages, the reader becomes an agent of change, armed with insights into life sciences, physical sciences, engineering, mathematics, computer science, and health sciences. Through a transdisciplinary lens, the book illuminates a path toward a more inclusive and equitable future. |
| diversity and inclusion in stem education: Gender Equity in Science and Engineering Diana Bilimoria, Xiangfen Liang, 2012-02-06 Women faculty’s participation in academic science and engineering is critical for future US global competitiveness, yet their underrepresentation particularly in senior positions remains a widespread problem. To overcome persistent institutional resistance and barriers to change, the NSF ADVANCE institutional transformation initiative, instituted in 2001, seeks to increase the workforce participation of women faculty in academic science and engineering through systematic institutional transformation. This book assesses the equity, diversity and inclusion outcomes of the changes underway at 19 universities. It provides a comprehensive, stand-alone description of successful approaches to increase the recruitment, advancement and retention of women faculty throughout the academic career pipeline. The findings show that targeted institutional transformation at these 19 U.S. universities has resulted in significant increases in women faculty’s workforce participation, as well as improved gender equity and inclusion. Analyses by discipline show that the greatest changes have occurred within engineering and natural science disciplines at these universities. Yet the results also point to the overall continued underrepresentation of women faculty in academic science and engineering at the nation’s research universities. A framework of organizational change is derived to serve as a template to academic and other organizations seeking transformation to enhance gender equity, diversity and inclusion. |
| diversity and inclusion in stem education: Inferior Angela Saini, 2017-05-30 What science has gotten so shamefully wrong about women, and the fight, by both female and male scientists, to rewrite what we thought we knew For hundreds of years it was common sense: women were the inferior sex. Their bodies were weaker, their minds feebler, their role subservient. No less a scientist than Charles Darwin asserted that women were at a lower stage of evolution, and for decades, scientists—most of them male, of course—claimed to find evidence to support this. Whether looking at intelligence or emotion, cognition or behavior, science has continued to tell us that men and women are fundamentally different. Biologists claim that women are better suited to raising families or are, more gently, uniquely empathetic. Men, on the other hand, continue to be described as excelling at tasks that require logic, spatial reasoning, and motor skills. But a huge wave of research is now revealing an alternative version of what we thought we knew. The new woman revealed by this scientific data is as strong, strategic, and smart as anyone else. In Inferior, acclaimed science writer Angela Saini weaves together a fascinating—and sorely necessary—new science of women. As Saini takes readers on a journey to uncover science’s failure to understand women, she finds that we’re still living with the legacy of an establishment that’s just beginning to recover from centuries of entrenched exclusion and prejudice. Sexist assumptions are stubbornly persistent: even in recent years, researchers have insisted that women are choosy and monogamous while men are naturally promiscuous, or that the way men’s and women’s brains are wired confirms long-discredited gender stereotypes. As Saini reveals, however, groundbreaking research is finally rediscovering women’s bodies and minds. Inferior investigates the gender wars in biology, psychology, and anthropology, and delves into cutting-edge scientific studies to uncover a fascinating new portrait of women’s brains, bodies, and role in human evolution. |
| diversity and inclusion in stem education: A Framework for K-12 Science Education National Research Council, Division of Behavioral and Social Sciences and Education, Board on Science Education, Committee on a Conceptual Framework for New K-12 Science Education Standards, 2012-02-28 Science, engineering, and technology permeate nearly every facet of modern life and hold the key to solving many of humanity's most pressing current and future challenges. The United States' position in the global economy is declining, in part because U.S. workers lack fundamental knowledge in these fields. To address the critical issues of U.S. competitiveness and to better prepare the workforce, A Framework for K-12 Science Education proposes a new approach to K-12 science education that will capture students' interest and provide them with the necessary foundational knowledge in the field. A Framework for K-12 Science Education outlines a broad set of expectations for students in science and engineering in grades K-12. These expectations will inform the development of new standards for K-12 science education and, subsequently, revisions to curriculum, instruction, assessment, and professional development for educators. This book identifies three dimensions that convey the core ideas and practices around which science and engineering education in these grades should be built. These three dimensions are: crosscutting concepts that unify the study of science through their common application across science and engineering; scientific and engineering practices; and disciplinary core ideas in the physical sciences, life sciences, and earth and space sciences and for engineering, technology, and the applications of science. The overarching goal is for all high school graduates to have sufficient knowledge of science and engineering to engage in public discussions on science-related issues, be careful consumers of scientific and technical information, and enter the careers of their choice. A Framework for K-12 Science Education is the first step in a process that can inform state-level decisions and achieve a research-grounded basis for improving science instruction and learning across the country. The book will guide standards developers, teachers, curriculum designers, assessment developers, state and district science administrators, and educators who teach science in informal environments. |
| diversity and inclusion in stem education: Diversity and Inclusion in Global Higher Education Catherine Shea Sanger, Nancy W. Gleason, 2020-01-06 This open access book offers pioneering insights and practical methods for promoting diversity and inclusion in higher education classrooms and curricula. It highlights the growing importance of international education programs in Asia and the value of understanding student diversity in a changing, evermore interconnected world. The book explores diversity across physical, psychological and cogitative traits, socio-economic backgrounds, value systems, traditions and emerging identities, as well as diverse expectations around teaching, grading, and assessment. Chapters detail significant trends in active learning pedagogy, writing programs, language acquisition, and implications for teaching in the liberal arts, adult learners, girls and women, and Confucian heritage communities. A quality, relevant, 21st Century education should address multifaceted and intersecting forms of diversity to equip students for deep life-long learning inside and outside the classroom. This timely volume provides a unique toolkit for educators, policy-makers, and professional development experts. |
| diversity and inclusion in stem education: Uses of Artificial Intelligence in STEM Education Xiaoming Zhai, Joseph Krajcik, 2024-10-24 In the age of rapid technological advancements, the integration of Artificial Intelligence (AI), machine learning (ML), and large language models (LLMs) in Science, Technology, Engineering, and Mathematics (STEM) education has emerged as a transformative force, reshaping pedagogical approaches and assessment methodologies. Uses of AI in STEM Education, comprising 25 chapters, delves deep into the multifaceted realm of AI-driven STEM education. It begins by exploring the challenges and opportunities of AI-based STEM education, emphasizing the intricate balance between human tasks and technological tools. As the chapters unfold, readers learn about innovative AI applications, from automated scoring systems in biology, chemistry, physics, mathematics, and engineering to intelligent tutors and adaptive learning. The book also touches upon the nuances of AI in supporting diverse learners, including students with learning disabilities, and the ethical considerations surrounding AI's growing influence in educational settings. It showcases the transformative potential of AI in reshaping STEM education, emphasizing the need for adaptive pedagogical strategies that cater to diverse learning needs in an AI-centric world. The chapters further delve into the practical applications of AI, from scoring teacher observations and analyzing classroom videos using neural networks to the broader implications of AI for STEM assessment practices. Concluding with reflections on the new paradigm of AI-based STEM education, this book serves as a comprehensive guide for educators, researchers, and policymakers, offering insights into the future of STEM education in an AI-driven world. |
| diversity and inclusion in stem education: Global Perspectives on STEM Education Isha DeCoito, |
| diversity and inclusion in stem education: NGSS for All Students Okhee Lee, 2015 It's challenging to teach science well to all students while connecting your lessons to the Next Generation Science Standards (NGSS). This unique book portrays real teaching scenarios written by the teachers on the NGSS Diversity and Equity Team. The seven authentic case studies vividly illustrate research- and standards-based classroom strategies you can use to engage seven diverse demographic groups: - Economically disadvantaged students - Students from major racial and ethnic groups - Students with disabilities - English language learners - Girls - Students in alternative education - Gifted and talented students Supplementing the case studies are additional chapters to deepen your understanding of the strategies and make what you learn more usable. These chapters address how to design units with the NGSS and diversity in mind, apply a rubric to improve your teaching using the NGSS with diverse student groups, and use the case studies in teacher study groups. Furthermore, leaders of the NGSS-- including Helen Quinn, Stephen Pruitt, André s Henrí quez, and Joe Krajcik-- offer their insights and commitments to diversity and equity. NGSS for All Students will help you make the instructional shifts necessary to prepare all your students for college and careers. |
| diversity and inclusion in stem education: Equity in STEM Education Research Alberto J. Rodriguez, Regina L. Suriel, 2022-09-06 This book focuses on the creative and transformative work of scholars who are advancing social justice through science/STEM education with limited resources. It draws attention to the significant body of work being conducted in various contexts so that readers could reflect and appreciate how much broader and transformative our impact could be if funding agencies, policy makers, and other researchers would widen their perspective and seek to promote social justice-driven scholarship. Public funding for STEM research on K-12 and teacher education that targets special populations is often limited and tends to favor mainstream research. This book contains case studies on innovative and promising STEM research with a focus on equity, diversity and social justice that are funded with limited or no public funding. It also presents anecdotes from authors in relation to their struggles in either securing funding for their reported study or seeking to publish its findings. This provides more context to the challenges of conducting non-mainstream research in science/STEM education. Most of the contributors are scholars of color and/or women conducting research with traditionally marginalized populations in science/STEM. Thus, this book offers an additional venue to share the voices of marginalized scholars and allies seeking to broaden our understanding of the challenges and successes of promoting equity, diversity, and social justice in various educational contexts. |
| diversity and inclusion in stem education: The Science of Citizen Science Katrin Vohland, Anne Land-zandstra, Luigi Ceccaroni, Rob Lemmens, Josep Perelló, Marisa Ponti, Roeland Samson, Katherin Wagenknecht, 2021 This open access book discusses how the involvement of citizens into scientific endeavors is expected to contribute to solve the big challenges of our time, such as climate change and the loss of biodiversity, growing inequalities within and between societies, and the sustainability turn. The field of citizen science has been growing in recent decades. Many different stakeholders from scientists to citizens and from policy makers to environmental organisations have been involved in its practice. In addition, many scientists also study citizen science as a research approach and as a way for science and society to interact and collaborate. This book provides a representation of the practices as well as scientific and societal outcomes in different disciplines. It reflects the contribution of citizen science to societal development, education, or innovation and provides and overview of the field of actors as well as on tools and guidelines. It serves as an introduction for anyone who wants to get involved in and learn more about the science of citizen science. |
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